368 lines
13 KiB
C++
368 lines
13 KiB
C++
// Copyright 2011 Dolphin Emulator Project
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// Licensed under GPLv2+
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// Refer to the license.txt file included.
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#include "VideoBackends/D3D/XFBEncoder.h"
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#include "Common/CommonTypes.h"
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#include "Common/Logging/Log.h"
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#include "Common/MsgHandler.h"
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#include "VideoBackends/D3D/D3DBase.h"
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#include "VideoBackends/D3D/D3DBlob.h"
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#include "VideoBackends/D3D/D3DShader.h"
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#include "VideoBackends/D3D/D3DState.h"
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#include "VideoBackends/D3D/FramebufferManager.h"
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#include "VideoBackends/D3D/Render.h"
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namespace DX11
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{
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union XFBEncodeParams {
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struct
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{
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FLOAT Width; // Width and height of encoded XFB in luma pixels
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FLOAT Height;
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FLOAT TexLeft; // Normalized tex coordinates of XFB source area in EFB texture
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FLOAT TexTop;
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FLOAT TexRight;
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FLOAT TexBottom;
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FLOAT Gamma;
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};
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// Constant buffers must be a multiple of 16 bytes in size
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u8 pad[32]; // Pad to the next multiple of 16
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};
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static const char XFB_ENCODE_VS[] =
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"// dolphin-emu XFB encoder vertex shader\n"
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"cbuffer cbParams : register(b0)\n"
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"{\n"
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"struct\n" // Should match XFBEncodeParams above
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"{\n"
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"float Width;\n"
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"float Height;\n"
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"float TexLeft;\n"
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"float TexTop;\n"
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"float TexRight;\n"
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"float TexBottom;\n"
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"float Gamma;\n"
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"} Params;\n"
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"}\n"
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"struct Output\n"
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"{\n"
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"float4 Pos : SV_Position;\n"
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"float2 Coord : ENCODECOORD;\n"
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"};\n"
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"Output main(in float2 Pos : POSITION)\n"
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"{\n"
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"Output result;\n"
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"result.Pos = float4(2*Pos.x-1, -2*Pos.y+1, 0, 1);\n"
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"result.Coord = Pos * float2(floor(Params.Width/2), Params.Height);\n"
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"return result;\n"
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"}\n";
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static const char XFB_ENCODE_PS[] =
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"// dolphin-emu XFB encoder pixel shader\n"
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"cbuffer cbParams : register(b0)\n"
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"{\n"
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"struct\n" // Should match XFBEncodeParams above
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"{\n"
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"float Width;\n"
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"float Height;\n"
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"float TexLeft;\n"
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"float TexTop;\n"
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"float TexRight;\n"
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"float TexBottom;\n"
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"float Gamma;\n"
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"} Params;\n"
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"}\n"
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"Texture2DArray EFBTexture : register(t0);\n"
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"sampler EFBSampler : register(s0);\n"
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// GameCube/Wii uses the BT.601 standard algorithm for converting to YCbCr; see
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// <http://www.equasys.de/colorconversion.html#YCbCr-RGBColorFormatConversion>
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"static const float3x4 RGB_TO_YCBCR = float3x4(\n"
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"0.257, 0.504, 0.098, 16.0/255.0,\n"
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"-0.148, -0.291, 0.439, 128.0/255.0,\n"
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"0.439, -0.368, -0.071, 128.0/255.0\n"
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");\n"
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"float3 SampleEFB(float2 coord)\n"
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"{\n"
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"float2 texCoord = lerp(float2(Params.TexLeft,Params.TexTop), "
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"float2(Params.TexRight,Params.TexBottom), coord / float2(Params.Width,Params.Height));\n"
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"return EFBTexture.Sample(EFBSampler, float3(texCoord, 0.0)).rgb;\n"
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"}\n"
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"void main(out float4 ocol0 : SV_Target, in float4 Pos : SV_Position, in float2 Coord : "
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"ENCODECOORD)\n"
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"{\n"
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// Multiplying X by 2, moves pixel centers from (x+0.5) to (2x+1) instead of (2x+0.5), so
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// subtract 0.5 to compensate
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"float2 baseCoord = Coord * float2(2,1) - float2(0.5,0);\n"
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// FIXME: Shall we apply gamma here, or apply it below to the Y components?
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// Be careful if you apply it to Y! The Y components are in the range (16..235) / 255.
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"float3 sampleL = pow(abs(SampleEFB(baseCoord+float2(-1,0))), Params.Gamma);\n" // Left
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"float3 sampleM = pow(abs(SampleEFB(baseCoord)), Params.Gamma);\n" // Middle
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"float3 sampleR = pow(abs(SampleEFB(baseCoord+float2(1,0))), Params.Gamma);\n" // Right
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"float3 yuvL = mul(RGB_TO_YCBCR, float4(sampleL,1));\n"
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"float3 yuvM = mul(RGB_TO_YCBCR, float4(sampleM,1));\n"
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"float3 yuvR = mul(RGB_TO_YCBCR, float4(sampleR,1));\n"
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// The Y components correspond to two EFB pixels, while the U and V are
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// made from a blend of three EFB pixels.
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"float y0 = yuvM.r;\n"
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"float y1 = yuvR.r;\n"
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"float u0 = 0.25*yuvL.g + 0.5*yuvM.g + 0.25*yuvR.g;\n"
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"float v0 = 0.25*yuvL.b + 0.5*yuvM.b + 0.25*yuvR.b;\n"
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"ocol0 = float4(y0, u0, y1, v0);\n"
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"}\n";
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static const D3D11_INPUT_ELEMENT_DESC QUAD_LAYOUT_DESC[] = {
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{"POSITION", 0, DXGI_FORMAT_R32G32_FLOAT, 0, 0, D3D11_INPUT_PER_VERTEX_DATA, 0}};
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static const struct QuadVertex
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{
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float posX;
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float posY;
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} QUAD_VERTS[4] = {{0, 0}, {1, 0}, {0, 1}, {1, 1}};
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XFBEncoder::XFBEncoder()
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: m_out(nullptr), m_outRTV(nullptr), m_outStage(nullptr), m_encodeParams(nullptr),
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m_quad(nullptr), m_vShader(nullptr), m_quadLayout(nullptr), m_pShader(nullptr),
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m_xfbEncodeBlendState(nullptr), m_xfbEncodeDepthState(nullptr), m_xfbEncodeRastState(nullptr),
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m_efbSampler(nullptr)
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{
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}
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void XFBEncoder::Init()
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{
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HRESULT hr;
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// Create output texture
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// The pixel shader can generate one YUYV entry per pixel. One YUYV entry
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// is created for every two EFB pixels.
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D3D11_TEXTURE2D_DESC t2dd = CD3D11_TEXTURE2D_DESC(DXGI_FORMAT_R8G8B8A8_UNORM, MAX_XFB_WIDTH / 2,
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MAX_XFB_HEIGHT, 1, 1, D3D11_BIND_RENDER_TARGET);
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hr = D3D::device->CreateTexture2D(&t2dd, nullptr, &m_out);
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CHECK(SUCCEEDED(hr), "create xfb encoder output texture");
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D3D::SetDebugObjectName(m_out, "xfb encoder output texture");
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// Create output render target view
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D3D11_RENDER_TARGET_VIEW_DESC rtvd = CD3D11_RENDER_TARGET_VIEW_DESC(
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m_out, D3D11_RTV_DIMENSION_TEXTURE2D, DXGI_FORMAT_R8G8B8A8_UNORM);
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hr = D3D::device->CreateRenderTargetView(m_out, &rtvd, &m_outRTV);
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CHECK(SUCCEEDED(hr), "create xfb encoder output texture rtv");
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D3D::SetDebugObjectName(m_outRTV, "xfb encoder output rtv");
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// Create output staging buffer
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t2dd.Usage = D3D11_USAGE_STAGING;
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t2dd.BindFlags = 0;
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t2dd.CPUAccessFlags = D3D11_CPU_ACCESS_READ;
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hr = D3D::device->CreateTexture2D(&t2dd, nullptr, &m_outStage);
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CHECK(SUCCEEDED(hr), "create xfb encoder output staging buffer");
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D3D::SetDebugObjectName(m_outStage, "xfb encoder output staging buffer");
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// Create constant buffer for uploading params to shaders
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D3D11_BUFFER_DESC bd = CD3D11_BUFFER_DESC(sizeof(XFBEncodeParams), D3D11_BIND_CONSTANT_BUFFER);
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hr = D3D::device->CreateBuffer(&bd, nullptr, &m_encodeParams);
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CHECK(SUCCEEDED(hr), "create xfb encode params buffer");
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D3D::SetDebugObjectName(m_encodeParams, "xfb encoder params buffer");
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// Create vertex quad
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bd = CD3D11_BUFFER_DESC(sizeof(QUAD_VERTS), D3D11_BIND_VERTEX_BUFFER, D3D11_USAGE_IMMUTABLE);
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D3D11_SUBRESOURCE_DATA srd = {QUAD_VERTS, 0, 0};
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hr = D3D::device->CreateBuffer(&bd, &srd, &m_quad);
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CHECK(SUCCEEDED(hr), "create xfb encode quad vertex buffer");
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D3D::SetDebugObjectName(m_quad, "xfb encoder quad vertex buffer");
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// Create vertex shader
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D3DBlob* bytecode = nullptr;
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if (!D3D::CompileVertexShader(XFB_ENCODE_VS, &bytecode))
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{
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ERROR_LOG(VIDEO, "XFB encode vertex shader failed to compile");
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return;
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}
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hr = D3D::device->CreateVertexShader(bytecode->Data(), bytecode->Size(), nullptr, &m_vShader);
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CHECK(SUCCEEDED(hr), "create xfb encode vertex shader");
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D3D::SetDebugObjectName(m_vShader, "xfb encoder vertex shader");
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// Create input layout for vertex quad using bytecode from vertex shader
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hr = D3D::device->CreateInputLayout(QUAD_LAYOUT_DESC,
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sizeof(QUAD_LAYOUT_DESC) / sizeof(D3D11_INPUT_ELEMENT_DESC),
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bytecode->Data(), bytecode->Size(), &m_quadLayout);
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CHECK(SUCCEEDED(hr), "create xfb encode quad vertex layout");
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D3D::SetDebugObjectName(m_quadLayout, "xfb encoder quad layout");
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bytecode->Release();
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// Create pixel shader
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m_pShader = D3D::CompileAndCreatePixelShader(XFB_ENCODE_PS);
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if (!m_pShader)
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{
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ERROR_LOG(VIDEO, "XFB encode pixel shader failed to compile");
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return;
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}
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D3D::SetDebugObjectName(m_pShader, "xfb encoder pixel shader");
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// Create blend state
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D3D11_BLEND_DESC bld = CD3D11_BLEND_DESC(CD3D11_DEFAULT());
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hr = D3D::device->CreateBlendState(&bld, &m_xfbEncodeBlendState);
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CHECK(SUCCEEDED(hr), "create xfb encode blend state");
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D3D::SetDebugObjectName(m_xfbEncodeBlendState, "xfb encoder blend state");
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// Create depth state
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D3D11_DEPTH_STENCIL_DESC dsd = CD3D11_DEPTH_STENCIL_DESC(CD3D11_DEFAULT());
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dsd.DepthEnable = FALSE;
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hr = D3D::device->CreateDepthStencilState(&dsd, &m_xfbEncodeDepthState);
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CHECK(SUCCEEDED(hr), "create xfb encode depth state");
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D3D::SetDebugObjectName(m_xfbEncodeDepthState, "xfb encoder depth state");
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// Create rasterizer state
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D3D11_RASTERIZER_DESC rd = CD3D11_RASTERIZER_DESC(CD3D11_DEFAULT());
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rd.CullMode = D3D11_CULL_NONE;
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rd.DepthClipEnable = FALSE;
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hr = D3D::device->CreateRasterizerState(&rd, &m_xfbEncodeRastState);
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CHECK(SUCCEEDED(hr), "create xfb encode rasterizer state");
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D3D::SetDebugObjectName(m_xfbEncodeRastState, "xfb encoder rast state");
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// Create EFB texture sampler
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D3D11_SAMPLER_DESC sd = CD3D11_SAMPLER_DESC(CD3D11_DEFAULT());
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sd.Filter = D3D11_FILTER_MIN_MAG_LINEAR_MIP_POINT;
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hr = D3D::device->CreateSamplerState(&sd, &m_efbSampler);
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CHECK(SUCCEEDED(hr), "create xfb encode texture sampler");
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D3D::SetDebugObjectName(m_efbSampler, "xfb encoder texture sampler");
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}
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void XFBEncoder::Shutdown()
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{
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SAFE_RELEASE(m_efbSampler);
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SAFE_RELEASE(m_xfbEncodeRastState);
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SAFE_RELEASE(m_xfbEncodeDepthState);
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SAFE_RELEASE(m_xfbEncodeBlendState);
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SAFE_RELEASE(m_pShader);
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SAFE_RELEASE(m_quadLayout);
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SAFE_RELEASE(m_vShader);
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SAFE_RELEASE(m_quad);
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SAFE_RELEASE(m_encodeParams);
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SAFE_RELEASE(m_outStage);
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SAFE_RELEASE(m_outRTV);
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SAFE_RELEASE(m_out);
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}
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void XFBEncoder::Encode(u8* dst, u32 width, u32 height, const EFBRectangle& srcRect, float gamma)
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{
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HRESULT hr;
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// Reset API
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g_renderer->ResetAPIState();
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// Set up all the state for XFB encoding
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D3D::stateman->SetPixelShader(m_pShader);
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D3D::stateman->SetVertexShader(m_vShader);
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D3D::stateman->SetGeometryShader(nullptr);
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D3D::stateman->PushBlendState(m_xfbEncodeBlendState);
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D3D::stateman->PushDepthState(m_xfbEncodeDepthState);
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D3D::stateman->PushRasterizerState(m_xfbEncodeRastState);
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D3D11_VIEWPORT vp = CD3D11_VIEWPORT(0.f, 0.f, FLOAT(width / 2), FLOAT(height));
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D3D::context->RSSetViewports(1, &vp);
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D3D::stateman->SetInputLayout(m_quadLayout);
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D3D::stateman->SetPrimitiveTopology(D3D11_PRIMITIVE_TOPOLOGY_TRIANGLESTRIP);
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UINT stride = sizeof(QuadVertex);
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UINT offset = 0;
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D3D::stateman->SetVertexBuffer(m_quad, stride, offset);
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TargetRectangle targetRect = g_renderer->ConvertEFBRectangle(srcRect);
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XFBEncodeParams params = {0};
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params.Width = FLOAT(width);
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params.Height = FLOAT(height);
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params.TexLeft = FLOAT(targetRect.left) / g_renderer->GetTargetWidth();
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params.TexTop = FLOAT(targetRect.top) / g_renderer->GetTargetHeight();
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params.TexRight = FLOAT(targetRect.right) / g_renderer->GetTargetWidth();
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params.TexBottom = FLOAT(targetRect.bottom) / g_renderer->GetTargetHeight();
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params.Gamma = gamma;
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D3D::context->UpdateSubresource(m_encodeParams, 0, nullptr, ¶ms, 0, 0);
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D3D::context->OMSetRenderTargets(1, &m_outRTV, nullptr);
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ID3D11ShaderResourceView* pEFB = FramebufferManager::GetResolvedEFBColorTexture()->GetSRV();
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D3D::stateman->SetVertexConstants(m_encodeParams);
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D3D::stateman->SetPixelConstants(m_encodeParams);
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D3D::stateman->SetTexture(0, pEFB);
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D3D::stateman->SetSampler(0, m_efbSampler);
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// Encode!
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D3D::stateman->Apply();
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D3D::context->Draw(4, 0);
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// Copy to staging buffer
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D3D11_BOX srcBox = CD3D11_BOX(0, 0, 0, width / 2, height, 1);
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D3D::context->CopySubresourceRegion(m_outStage, 0, 0, 0, 0, m_out, 0, &srcBox);
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// Clean up state
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D3D::context->OMSetRenderTargets(0, nullptr, nullptr);
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D3D::stateman->SetSampler(0, nullptr);
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D3D::stateman->SetTexture(0, nullptr);
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D3D::stateman->SetPixelConstants(nullptr);
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D3D::stateman->SetVertexConstants(nullptr);
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D3D::stateman->SetPixelShader(nullptr);
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D3D::stateman->SetVertexShader(nullptr);
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D3D::stateman->PopRasterizerState();
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D3D::stateman->PopDepthState();
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D3D::stateman->PopBlendState();
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// Transfer staging buffer to GameCube/Wii RAM
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D3D11_MAPPED_SUBRESOURCE map = {0};
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hr = D3D::context->Map(m_outStage, 0, D3D11_MAP_READ, 0, &map);
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CHECK(SUCCEEDED(hr), "map staging buffer");
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u8* src = (u8*)map.pData;
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for (unsigned int y = 0; y < height; ++y)
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{
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memcpy(dst, src, 2 * width);
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dst += bpmem.copyMipMapStrideChannels * 32;
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src += map.RowPitch;
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}
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D3D::context->Unmap(m_outStage, 0);
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// Restore API
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g_renderer->RestoreAPIState();
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D3D::stateman->Apply(); // force unbind efb texture as shader resource
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D3D::context->OMSetRenderTargets(1, &FramebufferManager::GetEFBColorTexture()->GetRTV(),
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FramebufferManager::GetEFBDepthTexture()->GetDSV());
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}
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}
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